Success and Virulence in Toxoplasma as the Result of Sexual Recombination Between Two Distinct Ancestries

doi:10.1126/science.1061888

Account Information

Guest Alerts | Access Rights | My Account | Sign In

Site Navigation

Article Views

Article Tools

My Science

More Information

Related Jobs from ScienceCareers

Science 5 October 2001:
Vol. 294. no. 5540, pp. 161 - 165
DOI: 10.1126/science.1061888

Prev | Table of Contents | Next

Reports

Success and Virulence in Toxoplasma as the Result of Sexual Recombination Between Two Distinct Ancestries

Michael E. Grigg,¹ Serge Bonnefoy,¹^* Adrian B. Hehl,¹ Yasuhiro Suzuki,²³^§ John C. Boothroyd¹^§

Toxoplasma gondii is a common human pathogen causing serious, even fatal, disease in the developing fetus and in immunocompromisedpatients. Despite its ability to reproduce sexually and its broadgeographic and host range, Toxoplasma has a clonal populationstructure comprised principally of three lines. We have analyzed15 polymorphic loci in the archetypal type I, II, and III strainsand found that polymorphism was limited to, at most, two ratherthan three allelic classes and no polymorphism was detected betweenalleles in strains of a given type. Multilocus analysis of 10nonarchetypal isolates likewise clustered the vast majority ofalleles into the same two distinct ancestries. These data stronglysuggest that the currently predominant genotypes exist as a pandemicoutbreak from a genetic mixing of two discrete ancestral lines.To determine if such mixing could lead to the extreme virulenceobserved for some strains, we examined the F₁ progeny of a crossbetween a type II and III strain, both of which are relativelyavirulent in mice. Among the progeny were recombinants that wereat least 3 logs more virulent than either parent. Thus, sexualrecombination, by combining polymorphisms in two distinct andcompeting clonal lines, can be a powerful force driving the naturalevolution of virulence in this highly successful pathogen.

¹ Department of Microbiology and Immunology, Stanford University School of Medicine, Stanford, CA 94305-5124, USA.
² Department of Immunology and Infectious Diseases, Research Institute, Palo Alto Medical Foundation, Palo Alto, CA 94301, USA.
³ Division of Infectious Diseases and Geographic Medicine, Department of Medicine, Stanford University School of Medicine, Stanford, CA 94305, USA.
^*   Present address: Unité d'Immunologie Moléculaire des Parasites, CNRS URA 1960, Institut Pasteur, 25 Rue du Dr Roux, 75724Paris Cedex 15, France.

   Present address: Institute of Parasitology, University of Zürich, Winterthurerstrasse 266a, CH-8057, Zürich, Switzerland.

   Present address: Department of Biomedical Sciences and Pathobiology, Virginia Polytechnic Institute, Blacksburg, VA 24061,USA.

^§   To whom correspondence should be addressed. E-mail: John.Boothroyd{at}stanford.edu (J.C.B.); ysuzuki{at}vt.edu (Y.S.)

Read the Full Text

THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:

Prevalent Genotypes of Toxoplasma gondii in Pregnant Women and Patients from Crete and Cyprus.: I. Messaritakis, M. Detsika, M. Koliou, S. Sifakis, and M. Antoniou (2008)
Am J Trop Med Hyg 79, 205-209
| Abstract » | Full Text » | PDF »

Highly Polymorphic Family of Glycosylphosphatidylinositol-Anchored Surface Antigens with Evidence of Developmental Regulation in Toxoplasma gondii.: A. M. Pollard, K. N. Onatolu, L. Hiller, K. Haldar, and L. J. Knoll (2008)
Infect. Immun. 76, 103-110
| Abstract » | Full Text » | PDF »

Recent transcontinental sweep of Toxoplasma gondii driven by a single monomorphic chromosome.: A. Khan, B. Fux, C. Su, J. P. Dubey, M. L. Darde, J. W. Ajioka, B. M. Rosenthal, and L. D. Sibley (2007)
PNAS 104, 14872-14877
| Abstract » | Full Text » | PDF »

Unusually Low Levels of Genetic Variation among Giardia lamblia Isolates.: S. Teodorovic, J. M. Braverman, and H. G. Elmendorf (2007)
Eukaryot. Cell 6, 1421-1430
| Abstract » | Full Text » | PDF »

Evolutionary and geographical history of the Leishmania donovani complex with a revision of current taxonomy.: J. Lukes, I. L. Mauricio, G. Schonian, J.-C. Dujardin, K. Soteriadou, J.-P. Dedet, K. Kuhls, K. W. Q. Tintaya, M. Jirku, E. Chocholova, et al. (2007)
PNAS 104, 9375-9380
| Abstract » | Full Text » | PDF »

Toxoplasma gondii Strains Defective in Oral Transmission Are Also Defective in Developmental Stage Differentiation.: B. Fux, J. Nawas, A. Khan, D. B. Gill, C. Su, and L. D. Sibley (2007)
Infect. Immun. 75, 2580-2590
| Abstract » | Full Text » | PDF »

Antibodies to Toxoplasma gondii in Patients With Schizophrenia: A Meta-Analysis.: E. F. Torrey, J. J. Bartko, Z.-R. Lun, and R. H. Yolken (2007)
Schizophr Bull 33, 729-736
| Abstract » | Full Text » | PDF »

The MAT1 Locus of Histoplasma capsulatum Is Responsive in a Mating Type-Specific Manner.: M. Bubnick and A. G. Smulian (2007)
Eukaryot. Cell 6, 616-621
| Abstract » | Full Text » | PDF »

A Secreted Serine-Threonine Kinase Determines Virulence in the Eukaryotic Pathogen Toxoplasma gondii.: S. Taylor, A. Barragan, C. Su, B. Fux, S. J. Fentress, K. Tang, W. L. Beatty, H. E. Hajj, M. Jerome, M. S. Behnke, et al. (2006)
Science 314, 1776-1780
| Abstract » | Full Text » | PDF »

Polymorphic Secreted Kinases Are Key Virulence Factors in Toxoplasmosis.: J. P. J. Saeij, J. P. Boyle, S. Coller, S. Taylor, L. D. Sibley, E. T. Brooke-Powell, J. W. Ajioka, and J. C. Boothroyd (2006)
Science 314, 1780-1783
| Abstract » | Full Text » | PDF »

Common inheritance of chromosome Ia associated with clonal expansion of Toxoplasma gondii.: A. Khan, U. Bohme, K. A. Kelly, E. Adlem, K. Brooks, M. Simmonds, K. Mungall, M. A. Quail, C. Arrowsmith, T. Chillingworth, et al. (2006)
Genome Res. 16, 1119-1125
| Abstract » | Full Text » | PDF »

From the Cover: Globalization and the population structure of Toxoplasma gondii.: T. Lehmann, P. L. Marcet, D. H. Graham, E. R. Dahl, and J. P. Dubey (2006)
PNAS 103, 11423-11428
| Abstract » | Full Text » | PDF »

Just one cross appears capable of dramatically altering the population biology of a eukaryotic pathogen like Toxoplasma gondii.: J. P. Boyle, B. Rajasekar, J. P. J. Saeij, J. W. Ajioka, M. Berriman, I. Paulsen, D. S. Roos, L. D. Sibley, M. W. White, and J. C. Boothroyd (2006)
PNAS 103, 10514-10519
| Abstract » | Full Text » | PDF »

Genotyping of Toxoplasma gondii by Multiplex PCR and Peptide-Based Serological Testing of Samples from Infants in Poland Diagnosed with Congenital Toxoplasmosis.: D. Nowakowska, I. Colon, J. S. Remington, M. Grigg, E. Golab, J. Wilczynski, and L. D. Sibley (2006)
J. Clin. Microbiol. 44, 1382-1389
| Abstract » | Full Text » | PDF »

Genotyping of Toxoplasma gondii Strains from Immunocompromised Patients Reveals High Prevalence of Type I Strains.: A. Khan, C. Su, M. German, G. A. Storch, D. B. Clifford, and L. D. Sibley (2005)
J. Clin. Microbiol. 43, 5881-5887
| Abstract » | Full Text » | PDF »

Clinical and Environmental Isolates of Cryptococcus gattii from Australia That Retain Sexual Fecundity.: L. T. Campbell, J. A. Fraser, C. B. Nichols, F. S. Dietrich, D. Carter, and J. Heitman (2005)
Eukaryot. Cell 4, 1410-1419
| Abstract » | Full Text » | PDF »

Stage-Specific Expression of Surface Antigens by Toxoplasma gondii as a Mechanism to Facilitate Parasite Persistence.: S.-K. Kim and J. C. Boothroyd (2005)
J. Immunol. 174, 8038-8048
| Abstract » | Full Text » | PDF »

Composite genome map and recombination parameters derived from three archetypal lineages of Toxoplasma gondii.: A. Khan, S. Taylor, C. Su, A. J. Mackey, J. Boyle, R. Cole, D. Glover, K. Tang, I. T. Paulsen, M. Berriman, et al. (2005)
Nucleic Acids Res. 33, 2980-2992
| Abstract » | Full Text » | PDF »

Multiplex PCR for Typing Strains of Toxoplasma gondii.: D. Ajzenberg, A. Dumetre, and M.-L. Darde (2005)
J. Clin. Microbiol. 43, 1940-1943
| Abstract » | Full Text » | PDF »

Bioluminescence Imaging of Toxoplasma gondii Infection in Living Mice Reveals Dramatic Differences between Strains.: J. P. J. Saeij, J. P. Boyle, M. E. Grigg, G. Arrizabalaga, and J. C. Boothroyd (2005)
Infect. Immun. 73, 695-702
| Abstract » | Full Text » | PDF »

Role of Cytokines and Major Histocompatibility Complex Restriction in Mouse Resistance to Infection with a Natural Recombinant Strain (Type I-III) of Toxoplasma gondii.: B. Fux, C. V. Rodrigues, R. W. Portela, N. M. Silva, C. Su, D. Sibley, R. W. A. Vitor, and R. T. Gazzinelli (2003)
Infect. Immun. 71, 6392-6401
| Abstract » | Full Text » | PDF »

Recapitulation of the Sexual Cycle of the Primary Fungal Pathogen Cryptococcus neoformans var. gattii: Implications for an Outbreak on Vancouver Island, Canada.: J. A. Fraser, R. L. Subaran, C. B. Nichols, and J. Heitman (2003)
Eukaryot. Cell 2, 1036-1045
| Abstract » | Full Text » | PDF »

Sexual Cycle of Cryptococcus neoformans var. grubii and Virulence of Congenic a and {alpha} Isolates.: K. Nielsen, G. M. Cox, P. Wang, D. L. Toffaletti, J. R. Perfect, and J. Heitman (2003)
Infect. Immun. 71, 4831-4841
| Abstract » | Full Text » | PDF »

Different Strains of Toxoplasma gondii Induce Different Cytokine Responses in CBA/Ca Mice.: F. G. Araujo and T. Slifer (2003)
Infect. Immun. 71, 4171-4174
| Abstract » | Full Text » | PDF »

Recent Expansion of Toxoplasma Through Enhanced Oral Transmission.: C. Su, D. Evans, R. H. Cole, J. C. Kissinger, J. W. Ajioka, and L. D. Sibley (2003)
Science 299, 414-416
| Abstract » | Full Text » | PDF »

Severe Acquired Toxoplasmosis in Immunocompetent Adult Patients in French Guiana.: B. Carme, F. Bissuel, D. Ajzenberg, R. Bouyne, C. Aznar, M. Demar, S. Bichat, D. Louvel, A. M. Bourbigot, C. Peneau, et al. (2002)
J. Clin. Microbiol. 40, 4037-4044
| Abstract » | Full Text » | PDF »

Identification of quantitative trait loci controlling acute virulence in Toxoplasma gondii.: C. Su, D. K. Howe, J. P. Dubey, J. W. Ajioka, and L. D. Sibley (2002)
PNAS 99, 10753-10758
| Abstract » | Full Text » | PDF »

In Vitro Correlates of Ld-Restricted Resistance to Toxoplasmic Encephalitis and Their Critical Dependence on Parasite Strain.: J. J. Johnson, C. W. Roberts, C. Pope, F. Roberts, M. J. Kirisits, R. Estes, E. Mui, T. Krieger, C. R. Brown, J. Forman, et al. (2002)
J. Immunol. 169, 966-973
| Abstract » | Full Text » | PDF »